Transport and improved confinement in high power edge radiation cooling experiments on textor

A. M. Messiaen; J. Ongena; U. Samm; M. Z. Tokar'; B. Unterberg; D. Boucher; K. H. Finken; E. Hintz; R. Koch; G. Mank; G. Telesca; P. E. Vandenplas; G. Van Oost; G. Van Wassenhove; J. Winter; G. H. Wolf; P. Dumortier; F. Durodié; H. G. Esser; H. Euringer; G. Fuchs; D. L. Hillis; F. Hoenen; L. Könen; H. R. Koslowski; A. Krämer-Flecken; M. Lochter; A. Pospieszczyk; J. Rapp; B. Schweer; H. Soltwisch; R. Uhlemann; R. Van Nieuwenhove; M. Vervier; G. Waidmann; R. R. Weynants

doi:10.1088/0029-5515/36/1/I03

Transport and improved confinement in high power edge radiation cooling experiments on textor

A. M. Messiaen
, J. Ongena
, U. Samm
, M. Z. Tokar'
, B. Unterberg
, D. Boucher
, K. H. Finken
, E. Hintz
, R. Koch
, G. Mank
, G. Telesca
, P. E. Vandenplas
, G. Van Oost
, G. Van Wassenhove
, J. Winter
, G. H. Wolf
, P. Dumortier
, F. Durodié
, H. G. Esser
, H. Euringer

G. Fuchs, D. L. Hillis, F. Hoenen, L. Könen, H. R. Koslowski, A. Krämer-Flecken, M. Lochter, A. Pospieszczyk, J. Rapp, B. Schweer, H. Soltwisch, R. Uhlemann, R. Van Nieuwenhove, M. Vervier, G. Waidmann, R. R. Weynants

Laboratory for Plasma Physics

FORSCHUNGSZENTRUM JULICH GMBH
ITER Joint Central Team
Oak Ridge National Laboratory

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

34 Citations (Scopus)

Résumé

A stationary high level of edge radiation (γ = P_rad/P_tot up to ∼90% with peak radiation up to ∼1 MW/m³) has been obtained in TEXTOR by using silicon and/or neon as radiating impurities. The confinement and neutron reactivity are not degraded but can even be improved at high plasma densities. Stationary reactor relevant heating and radiated power flows with a figure of merit f_H/q_a = 0.6 have been achieved. The interpretation of these results shows a reduction of the bulk transport in the presence of edge radiation cooling. The properties of the radiatively cooled discharges are interpreted or modelled mainly by the self-consistent radiative transport code RITM, and also by the codes TRANSP and PRETOR. From these modelling studies an enhancement of the bulk confinement is found in terms of the reduction of the convective losses and the decrease of the edge electron temperature, which results in a peaking of the current profile. The code RITM also predicts self-eonsistently the detailed properties of the radiating layer for different injected impurities as a function of their incoming flux, and shows that the optimal conditions to obtain confinement improvement as well as minimum fuel dilution by the radiating impurity are obtained at high density.

langue originale	Anglais
Pages (de - à)	39-53
Nombre de pages	15
journal	Nuclear Fusion
Volume	36
Numéro de publication	1
Les DOIs	https://doi.org/10.1088/0029-5515/36/1/I03
état	Publié - janv. 1996

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Messiaen, A. M., Ongena, J., Samm, U., Tokar', M. Z., Unterberg, B., Boucher, D., Finken, K. H., Hintz, E., Koch, R., Mank, G., Telesca, G., Vandenplas, P. E., Van Oost, G., Van Wassenhove, G., Winter, J., Wolf, G. H., Dumortier, P., Durodié, F., Esser, H. G., ... Weynants, R. R. (1996). Transport and improved confinement in high power edge radiation cooling experiments on textor. Nuclear Fusion, 36(1), 39-53. https://doi.org/10.1088/0029-5515/36/1/I03

@article{1d6aee2ad73346ecbd7e5cc8eeab1a3b,

title = "Transport and improved confinement in high power edge radiation cooling experiments on textor",

abstract = "A stationary high level of edge radiation (γ = Prad/Ptot up to ∼90\% with peak radiation up to ∼1 MW/m3) has been obtained in TEXTOR by using silicon and/or neon as radiating impurities. The confinement and neutron reactivity are not degraded but can even be improved at high plasma densities. Stationary reactor relevant heating and radiated power flows with a figure of merit fH/qa = 0.6 have been achieved. The interpretation of these results shows a reduction of the bulk transport in the presence of edge radiation cooling. The properties of the radiatively cooled discharges are interpreted or modelled mainly by the self-consistent radiative transport code RITM, and also by the codes TRANSP and PRETOR. From these modelling studies an enhancement of the bulk confinement is found in terms of the reduction of the convective losses and the decrease of the edge electron temperature, which results in a peaking of the current profile. The code RITM also predicts self-eonsistently the detailed properties of the radiating layer for different injected impurities as a function of their incoming flux, and shows that the optimal conditions to obtain confinement improvement as well as minimum fuel dilution by the radiating impurity are obtained at high density.",

author = "Messiaen, \{A. M.\} and J. Ongena and U. Samm and Tokar', \{M. Z.\} and B. Unterberg and D. Boucher and Finken, \{K. H.\} and E. Hintz and R. Koch and G. Mank and G. Telesca and Vandenplas, \{P. E.\} and \{Van Oost\}, G. and \{Van Wassenhove\}, G. and J. Winter and Wolf, \{G. H.\} and P. Dumortier and F. Durodi{\'e} and Esser, \{H. G.\} and H. Euringer and G. Fuchs and Hillis, \{D. L.\} and F. Hoenen and L. K{\"o}nen and Koslowski, \{H. R.\} and A. Kr{\"a}mer-Flecken and M. Lochter and A. Pospieszczyk and J. Rapp and B. Schweer and H. Soltwisch and R. Uhlemann and \{Van Nieuwenhove\}, R. and M. Vervier and G. Waidmann and Weynants, \{R. R.\}",

year = "1996",

month = jan,

doi = "10.1088/0029-5515/36/1/I03",

language = "English",

volume = "36",

pages = "39--53",

journal = "Nuclear Fusion",

issn = "0029-5515",

number = "1",

}

Messiaen, AM, Ongena, J, Samm, U, Tokar', MZ, Unterberg, B, Boucher, D, Finken, KH, Hintz, E, Koch, R, Mank, G, Telesca, G, Vandenplas, PE, Van Oost, G, Van Wassenhove, G, Winter, J, Wolf, GH, Dumortier, P , Durodié, F, Esser, HG, Euringer, H, Fuchs, G, Hillis, DL, Hoenen, F, Könen, L, Koslowski, HR, Krämer-Flecken, A, Lochter, M, Pospieszczyk, A, Rapp, J, Schweer, B, Soltwisch, H, Uhlemann, R, Van Nieuwenhove, R, Vervier, M, Waidmann, G & Weynants, RR 1996, 'Transport and improved confinement in high power edge radiation cooling experiments on textor', Nuclear Fusion, VOL. 36, Numéro 1, p. 39-53. https://doi.org/10.1088/0029-5515/36/1/I03

TY - JOUR

T1 - Transport and improved confinement in high power edge radiation cooling experiments on textor

AU - Messiaen, A. M.

AU - Ongena, J.

AU - Samm, U.

AU - Tokar', M. Z.

AU - Unterberg, B.

AU - Boucher, D.

AU - Finken, K. H.

AU - Hintz, E.

AU - Koch, R.

AU - Mank, G.

AU - Telesca, G.

AU - Vandenplas, P. E.

AU - Van Oost, G.

AU - Van Wassenhove, G.

AU - Winter, J.

AU - Wolf, G. H.

AU - Dumortier, P.

AU - Durodié, F.

AU - Esser, H. G.

AU - Euringer, H.

AU - Fuchs, G.

AU - Hillis, D. L.

AU - Hoenen, F.

AU - Könen, L.

AU - Koslowski, H. R.

AU - Krämer-Flecken, A.

AU - Lochter, M.

AU - Pospieszczyk, A.

AU - Rapp, J.

AU - Schweer, B.

AU - Soltwisch, H.

AU - Uhlemann, R.

AU - Van Nieuwenhove, R.

AU - Vervier, M.

AU - Waidmann, G.

AU - Weynants, R. R.

PY - 1996/1

Y1 - 1996/1

N2 - A stationary high level of edge radiation (γ = Prad/Ptot up to ∼90% with peak radiation up to ∼1 MW/m3) has been obtained in TEXTOR by using silicon and/or neon as radiating impurities. The confinement and neutron reactivity are not degraded but can even be improved at high plasma densities. Stationary reactor relevant heating and radiated power flows with a figure of merit fH/qa = 0.6 have been achieved. The interpretation of these results shows a reduction of the bulk transport in the presence of edge radiation cooling. The properties of the radiatively cooled discharges are interpreted or modelled mainly by the self-consistent radiative transport code RITM, and also by the codes TRANSP and PRETOR. From these modelling studies an enhancement of the bulk confinement is found in terms of the reduction of the convective losses and the decrease of the edge electron temperature, which results in a peaking of the current profile. The code RITM also predicts self-eonsistently the detailed properties of the radiating layer for different injected impurities as a function of their incoming flux, and shows that the optimal conditions to obtain confinement improvement as well as minimum fuel dilution by the radiating impurity are obtained at high density.

AB - A stationary high level of edge radiation (γ = Prad/Ptot up to ∼90% with peak radiation up to ∼1 MW/m3) has been obtained in TEXTOR by using silicon and/or neon as radiating impurities. The confinement and neutron reactivity are not degraded but can even be improved at high plasma densities. Stationary reactor relevant heating and radiated power flows with a figure of merit fH/qa = 0.6 have been achieved. The interpretation of these results shows a reduction of the bulk transport in the presence of edge radiation cooling. The properties of the radiatively cooled discharges are interpreted or modelled mainly by the self-consistent radiative transport code RITM, and also by the codes TRANSP and PRETOR. From these modelling studies an enhancement of the bulk confinement is found in terms of the reduction of the convective losses and the decrease of the edge electron temperature, which results in a peaking of the current profile. The code RITM also predicts self-eonsistently the detailed properties of the radiating layer for different injected impurities as a function of their incoming flux, and shows that the optimal conditions to obtain confinement improvement as well as minimum fuel dilution by the radiating impurity are obtained at high density.

UR - https://www.scopus.com/pages/publications/0029678876

U2 - 10.1088/0029-5515/36/1/I03

DO - 10.1088/0029-5515/36/1/I03

M3 - Article

AN - SCOPUS:0029678876

SN - 0029-5515

VL - 36

SP - 39

EP - 53

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 1

ER -

Transport and improved confinement in high power edge radiation cooling experiments on textor

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